A 15-Year Climatology of Warm Conveyor Belts

Eckhardt, Sabine; Stohl, Andreas; Wernli, Heini; James, P.; Forster, C.; Spichtinger, N.

doi:10.1175/1520-0442(2004)017<0218:aycowc>2.0.co;2

Cited by 315 publications

(407 citation statements)

References 56 publications

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“…a 15 year climatology is given by Eckhardt et al, 2004), cold conveyor belts (re-examined by Schultz, 2001) and dry intrusions (e.g. Carlson, 1980).…”

Section: Introductionmentioning

confidence: 96%

A climatology of mid-tropospheric mesoscale strong wind events as observed by the MST radar, Aberystwyth

Parton¹,

Dore²,

Vaughan³

2010

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Continuous sounding of the troposphere by the NERC Mesosphere-Stratosphere-Troposphere (MST) wind profiling radar, mid-Wales, since late 1997 provides a unique dataset with which to study the mesoscale wind field of the mid-troposphere over the United Kingdom. A wind speed probability density function (PDF) generated from 7 years of data is used to design a feature-finding algorithm to identify mesoscale strong wind events in the radar dataset. The resulting 117 events form a climatology of mesoscale strong wind features at mid-tropospheric heights over the British Isles, defined as peak wind speeds at or above the top 1% of the PDF, wind speeds exceeding the top 5% for at least 1 h, and extending over at least 1 km in depth. Plotting the location of the peak winds of these features on schematic charts of the Norwegian and Shapiro-Keyser models of cyclogenesis show these to be mainly warm sector and cold frontal in nature, with smaller numbers of tropopause folds and sting jets. Wind roses indicate a prevailing westerly direction for mid-tropospheric winds generally, but the strong wind events are distinctly different: cold frontal and warm sector events prevail from the south to southwest, tropopause folds from the northwest and sting jets from the west. The wider applicability of the results to the British Isles is established through comparison with radiosonde data from five sites covering the British Isles.

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“…a 15 year climatology is given by Eckhardt et al, 2004), cold conveyor belts (re-examined by Schultz, 2001) and dry intrusions (e.g. Carlson, 1980).…”

Section: Introductionmentioning

confidence: 96%

A climatology of mid-tropospheric mesoscale strong wind events as observed by the MST radar, Aberystwyth

Parton¹,

Dore²,

Vaughan³

2010

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“…The poleward transport of sensible and latent heat by WCBs is a key component of the overall atmospheric meridional energy transport in midlatitudes, where the temperature contrast between Pole and Equator is reduced mainly by cyclones and anticyclones due to baroclinic instability. The WCB climatology by Eckhardt et al (2004) reveals the large contribution of WCBs to mid-latitude precipitation. The intense latent heat release associated with cloud formation and precipitation influences the life cycle of cyclones and thus directly affects atmospheric dynamics.…”

Section: Introductionmentioning

confidence: 99%

Airborne lidar observations in the inflow region of a warm conveyor belt

Schäfler

Dörnbrack

Wernli

et al. 2011

Quart J Royal Meteoro Soc

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). It is noteworthy that this substantial bias occurs in a potentially dynamically highly relevant air mass that will be subsequently lifted within a WCB to the upper troposphere. A Lagrangian moisture source diagnostic reveals that these large moisture deviations occur within air masses that, according to the ECMWF analyses, are coherently transported from the western Mediterranean towards Spain and experience intense moisture uptake over the Ebro valley. It is suggested that inaccuracies in surface evapotranspiration, horizontal moisture advection, and turbulent vertical transport of moisture in the atmospheric boundary layer potentially contribute to the erroneous lowtropospheric humidity in the inflow region of this particular summertime WCB over Spain in the ECMWF analyses.

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“…This strengthens the claim that TST is not directly linked to the dynamics of upper-level jet streaks. We expect the upward motion to be due to either warm conveyor belts, as suggested by Eckhardt et al (2004), or convection (Sprenger et al, 2009). A further possibility is that these upward motions are related to regions of hydrostatic instability, which was found to have a local maximum in the tropopause region in midlatitudes and can be a source of CAT (Jaeger and Sprenger, 2007).…”

Section: Vertical Transport Towards the Tropopausementioning

confidence: 91%

“…The maximum probability is found at the time of the crossing for STT, but about 20 h earlier for TST. The TST cyclone peak in Figure 9(e) most likely represents the rapid transport by the warm conveyor belts of extratropical cyclones (Eckhardt et al, 2004). A clear asymmetry between STT and TST exists for anticyclones.…”

Section: Mechanisms For a Link Between Def Vort And Stementioning

confidence: 96%

Vorticity, deformation and divergence signals associated with stratosphere–troposphere exchange

Jaeger

Sprenger

2009

Quart J Royal Meteoro Soc

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ABSTRACT:The dynamical tropopause of the extratropics, defined as an isosurface of potential vorticity, acts as a barrier to stratosphere-troposphere exchange (STE). Therefore, any transport across this barrier is necessarily associated with diabatic or frictional processes such as turbulence, radiative forcing or condensational heating. Most of these processes are linked to distinct flow phenomena and hence with distinct signatures of the velocity field. The focus of this study is on the characteristics of the velocity field at the time and location of the tropopause crossing, as given by the flowcomponents divergence (DIV ), deformation (DEF ) and vorticity (VORT ). Firstly, the prevalence of distinct signals is shown for three case studies. Then a Lagrangian climatology of STE is used to assess the climatological aspects of this link for the year 1990. Methodologically, the flow-field components are traced along the STE trajectories, both derived from ERA-40. Some key results of this study are as follows. (1) DEF, positive values of VORT and negative values of DIV are markedly correlated with stratosphere-to-troposphere transport (STT). Therefore, the typical flow field associated with STT is deformative, cyclonic and convergent. (2) For troposphere-to-stratosphere transport (TST), the link with the flow-field components is less pronounced. DEF, VORT and DIV all show small, but distinct local maxima just before the exchange. The flow field during TST is therefore rather divergent and less cyclonic. (3) Sensitivity studies reveal that these findings are robust with respect to temporal and spatial variability.

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A 15-Year Climatology of Warm Conveyor Belts

Cited by 315 publications

References 56 publications

A climatology of mid-tropospheric mesoscale strong wind events as observed by the MST radar, Aberystwyth

A climatology of mid-tropospheric mesoscale strong wind events as observed by the MST radar, Aberystwyth

Airborne lidar observations in the inflow region of a warm conveyor belt

Vorticity, deformation and divergence signals associated with stratosphere–troposphere exchange

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